RAINWATER STORAGE AND DISTRIBUTION SYSTEM
The Rainbank is a rain distribution system that provides a cost-effective alternative to the collection and distribution of rainwater for municipalities. The Rainbank includes temporary storage capacity using a disposable flexible bag acting as a container to capture and collect rainwater and alleviate burdens on municipal water treatment works. The bag is protected in a simple, easy-to-manufacture, foldable structure. The structure allows for a distant overflow feature, a locking mechanism, filters, debris protection, and easy access to and removal of the bag. A thick, rigid backboard can also be slid into the bag to alleviate strain on the support structure. The fixed structure also can be closed between use periods to protect the system, help reduce the impact of the system on the environment, and allow the surface area grass below the support structure to regenerate.
The present patent application claims priority from and the benefit of U.S. Provisional Patent Application No. 61/089,266, filed Aug. 15, 2008, entitled Rainwater Storage and Distribution System, which prior application is hereby incorporated herein by reference.
FIELD OF THE INVENTIONThe present invention generally relates to a rainwater collection, storage, and distribution system (“the Rainbank”) connected to a residential or commercial structure. The structure has a top surface where rain falls, and the top surface is connected to gutter systems for removal of rainwater. More specifically, the present invention relates to an easy-to-manufacture distribution system with a flexible and disposable bag mounted inside of a rigid shell.
BACKGROUNDRainfalls is variable from place to place. Some locations, such as deserts, have infrequent rainfalls. When weather conditions finally bring moisture to these locations, the precipitations are often violent. The dry ground in these locations, such as an area made of sand, is incapable of absorbing and retaining locally needed water. Rain transits thought the dry area and the area returns to drought condition quickly. Further, as a consequence of its recent evaporation, rainwater is often free of debris and pollution and may be useful water for human consumption or auxiliary uses such as for gardening or collection in a pool.
Rain falls to the ground, where it is eventually absorbed or reaches the water table and can later be collected for use. The typical urban landscape is almost entirely covered with impermeable surfaces, such as cement, asphalt, or compacted earth. In a heavy rainstorm, rainwater that should be absorbed into the water table below ground remains at the surface and flows via gravity into municipal sewer systems or local watersheds, negatively impacting both the environment and water management infrastructure. When falling on impermeable surfaces, water tends to travel fast and may create large and unmanageable flows following a storm, which leaves municipalities vulnerable to both drought and flash flooding.
Rain collection systems serves as a surge protection mechanism during large storm events. They provide means of retaining (or “banking”) rainwater runoff following a storm, thereby reducing the amount of untreated storm water that enters area lakes and rivers. The increased water retention can also reduce the amount of standing water that accumulates on streets throughout a community when the rainfall exceeds the combined storm sewer capacity, which can help control mosquito populations. Further, water banked in the systems can be used for gardening, filling in pools, or even washing cars, thus reducing the capacity requirements on municipal water systems.
Environmental impacts of excess rainwater can be mitigated using rain collection systems. In many municipalities, the local watershed and groundwater table are not adequately recharged because the municipality discharges the rainwater along with treated sewage. The rainwater is then conveyed away from the municipality, losing an important input to the local watershed. In surges, the ecosystem can be severely impacted by the dirt, debris, chemicals, and other pollutants that are picked up as storm water flows across the various surfaces where contaminants are commonly found. Therefore, municipalities either spend money to treat rainwater along with effluent and then discharge the treated water remotely from its source or allow contaminated rainwater to negatively impact the quality of the local ecosystem.
The Rainbank is a rain distribution system that provides a cost-effective alternative to the collection and distribution of rainwater for municipalities. The Rainbank includes temporary storage capacity using a disposable flexible bag acting as a container to capture and collect rainwater and alleviate burdens on municipal water treatment works. The bag is protected in a simple, easy-to-manufacture, foldable structure. The structure allows for a distant overflow feature, a locking mechanism, filters, debris protection, and easy access to and removal of the bag. A thick, rigid backboard can also be slid into the bag to alleviate strain on the support structure. The fixed structure also can be closed between use periods to protect the system, help reduce the impact of the system on the environment, and allow the surface area grass below the support structure to regenerate.
The features of the present disclosure are believed to be novel and are set forth with particularity in the appended claim. The disclosure may best be understood by reference to the following description taken in conjunction with the accompanying drawings. Figures that employ like reference numerals identify like elements.
The present invention is not limited to the particular details of the apparatus depicted, and other modifications and applications may be contemplated. Further changes may be made in the device without departing from the true spirit of the scope of the invention herein involved. It is intended, therefore, that the subject matter in this disclosure should be interpreted as illustrative, not in a limiting sense.
Returning to
Even a minor storm event (0.25″ of rain) enables most households (with an average of 1,000 square feet of roof space) to harvest enough rainwater to fill three Rainbanks 1 in a single storm. In one contemplated embodiment, water is free to circulate via a hose system between different Rainbanks 1 connected serially as a system to allow the use of the water stored in all of the Rainbanks 1 from the outlet of any single Rainbank 1.
Case Study—Cook County Illinois
The total volume of water retained in a storm event in the above table represents water that will not need treatment and may potentially reduce the need for sewage system expansion on the part of the municipality if the system is installed by municipal residents.
Not only does the Rainbank create a positive impact on the municipal treatment works and local environment, it also provides an opportunity for a local community service project. Organizations such as the Center for Green Technology (City of Chicago) support local service projects by allowing young adults to serve on “green teams” and earn money while helping the environment and their local community.
The present disclosure relates to a Rainbank system 100 placed around a structure 106 as shown in
To use the Rainbank 1 as shown in
As shown in
The rigid support structure 50 of the Rainbank 1 is shown in an operative configuration in
One advantage of the currently disclosed rigid structure 50 is the capacity to use weak materials that might normally bend under the weight of the bag 10 once filled with water as part of the structure 50 absent the support board 30. For example, the first panel may be constructed of a material capable of folding or having built-in edges. While the term “rigid structure” is used within the scope of this disclosure, the term is used to contrast with the flexible nature of the bag 10 and does not imply that the materials forming this structure are the only rigid elements or are incapable of bending. One advantage of the Rainbank 1 is the capacity to use simple materials to manufacture large quantities of the Rainbank 1 on a large scale for city-wide implementation.
In yet another embodiment, a filter, such as a filter bag 21 as shown in
The structure 50 can then be folded as shown in
The face panel 6 may also includes a drain opening 95 aligned with the overflow opening 14 for the evacuation of rainwater overflow. In one embodiment shown in
A support 30 is used to rigidify the rain storage unit 1 adjacent to the back support 7A for attachment to a structure such as a house having a roof and a gutter with a downspout.
In yet another contemplated embodiment, instead of placing a support 30 next to the dwelling, the unit 1 and the upper portion of the back portion 7A can be bolted to the side of the structure. In still another embodiment, the unit 1 includes a self-standing structure that can be rested against the structure.
Within the concept is the use of standard board sizes available at any lumber yard. Four support boards can be cut from a standard 8′×4′ CDX plywood board. The Rainbank 1 is made of a flexible, weather-resistant material that allows it to maintain a low profile when empty. The Rainbank 1 is compact and easy to store and ship to individual property owners or storage facilities where residents can take delivery. The Rainbank 1 is also lightweight and easy to uninstall for long-term storage during colder months. The Rainbank 1 is fitted with a standard ¾″ garden hose thread on each side, enabling the owner to connect several Rainbanks in series, providing access to the “banked” rainwater as needed. The Rainbank can be provided with a filter that attaches to the downspout to collect debris and separate other contaminants, such as oil, from the rainwater as shown in
While the use of only a prefilter is shown in
The current best mode of operation of the Rainbank 1 is shown at
It is understood that the preceding description is merely a detailed description of some examples and embodiments of the present invention and that numerous changes to the disclosed embodiments can be made in accordance with the disclosure herein without departing from the spirit or scope of the invention. The preceding description, therefore, is not meant to limit the scope of the invention but to provide sufficient disclosure to one of ordinary skill in the art to practice the invention without undue burden.
Claims
1. A Rainbank, comprising a bag with an opening for a downspout and a flap with a closure means, an overflow opening, a drain opening with a spout, a fixation system for fixation to a structure, and a board holder for holding a support board, and wherein the board holder is a pocket attached to the bag.
2. The Rainbank of claim 1, wherein the opening includes a debris mesh.
3. The Rainbank of claim 1, wherein the spout is a threaded spout.
4. The Rainbank of claim 1, wherein the bag further includes a drain outlet connected to the overflow opening with an exit, and wherein the drain outlet is guided by gravitational placement to the ground.
5. The Rainbank of claim 1, wherein the closure means is a lock.
6. A Rainbank, comprising:
- a rigid support with a first panel having a support portion for fixation to a structure, a top portion with a gutter opening, the top portion pivotally attached to an upper end of the support portion, and a flap portion with a closure means pivotally attached to the top portion, a second panel pivotally attached to a lower end of the support portion, the second panel including a ground panel and a face panel for attachment to the closure means of the flap portion, and
- a bag within the rigid support with an opening, an overflow opening, and a drain opening with a spout, and wherein the opening is adjacent to the gutter opening.
7. The Rainbank of claim 6, wherein a first end of the ground panel is pivotally attached to the lower end of the support portion, and wherein the face panel is pivotally attached to the ground panel.
8. The Rainbank of claim 6, wherein the bag further comprises a board holder for holding a support board.
9. The Rainbank of claim 3, wherein the board holder is a pocket attached to the bag.
10. The Rainbank of claim 6, wherein the gutter opening includes a debris mesh.
11. The Rainbank of claim 6, wherein the spout is a threaded spout.
12. The Rainbank of claim 6, wherein the face panel includes a drain opening aligned with the overflow opening for the evacuation of a rainwater overflow.
13. A collapsible support for a Rainbank, the support comprising:
- a first panel having a support portion for fixation to a structure, a top portion with a gutter opening, the top portion pivotally attached to an upper end of the support portion, and a flap portion with a closure means pivotally attached to the top portion; and
- a second panel pivotally attached to a lower end of the support portion, the second panel including a ground panel and a face panel for attachment to the closure means of the flap portion,
- wherein the support is collapsed from an operative configuration to an inoperative configuration by pivoting the ground panel in relation to the support portion so that both the ground panel and the support portion are substantially aligned.
14. The collapsible support for a Rainbank of claim 13, wherein the support is further collapsed into the inoperative position by pivoting the top portion over the ground panel.
15. The collapsible support for a Rainbank of claim 13, wherein the closure means is a side clip.
16. A Rainbank system, comprising:
- a structure with a gutter system for the collection of rain water, wherein the gutter system includes at least two gutters for collecting the downpour of rainwater,
- a Rainbank at each of the at least two gutters, wherein each Rainbank comprises a rigid support with a first panel having a support portion for fixation to a structure, a top portion with a gutter opening, the top portion pivotally attached to an upper end of the support portion, and a flap portion with a closure means pivotally attached to the top portion, a second panel pivotally attached to a lower end of the support portion, the second panel including a ground panel and a face panel for attachment to the closure means of the flap portion, and a bag within the rigid support with an opening, an overflow opening, and at least a drain opening with a spout, and wherein the opening is adjacent to the gutter opening,
- at least one hose connected to the drain to at least two of the Rainbanks for distribution of water collected from the roof in the Rainbanks, and at least a main connector for evacuation of rainwater in the Rainbanks.
17. The Rainbank system of claim 16, wherein a first end of the ground panel of each Rainbank is pivotally attached to the lower end of the support portion, and wherein the face panel of each Rainbank is pivotally attached to the ground panel.
18. The Rainbank system of claim 16, wherein each bag further comprises a board holder for holding a support board.
19. The Rainbank system of claim 18, wherein the board holder is a pocket attached to the bag.
20. The Rainbank system of claim 18, wherein the support board is a different segment of a single panel.
Type: Application
Filed: Aug 14, 2009
Publication Date: Feb 18, 2010
Inventors: Tim J. Ryan (Chicago, IL), Andrew Leonard (Chicago, IL), JohnPaul Kusz (Park Ridge, IL)
Application Number: 12/541,589